There is a need for improving switching regulator characteristics and providing a stable power supply controller. The power supply controller uses a battery and either or both functions of stepping up and stepping down a battery voltage. The power supply controller includes a means that prevents a ripple voltage from occurring by stopping the up conversion function for a switching operation in connection with a battery during a predetermined period without changing conditions for a conventional switching device or smoothing circuit and fast stabilizes a primary voltage using only the down conversion function.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A power supply controller comprising: an up conversion means for stepping up a primary voltage from a battery voltage generated on a circuit of the power supply controller after connecting with a battery; a battery voltage detection means; and an up conversion stop means for allowing the up conversion means to stop stepping up a voltage until a secondary voltage reaches a regulation value provided to judge when the secondary voltage supplied to each device of a controlled apparatus exceeds an operating voltage; wherein the power supply controller generates a secondary voltage provided to each said device of the controlled apparatus from a generated primary voltage.
2. A power supply controller comprising: a down conversion means for stepping down a primary voltage from a battery voltage generated on a circuit of the power supply controller after connecting with a battery; an up conversion means for stepping up a primary voltage from a battery voltage; a battery voltage detection means; and an up conversion stop means for allowing the up conversion means to stop stepping up a voltage until a secondary voltage reaches a regulation value provided to judge when the secondary voltage supplied to each device of a controlled apparatus exceeds an operating voltage; wherein the power supply controller generates a secondary voltage provided to each said device of the controlled apparatus from a generated primary voltage.
3. A power supply controller comprising: an up conversion means for stepping up a primary voltage from a battery voltage; a battery voltage detection means; and an up conversion stop means for allowing the up conversion means to stop stepping up a voltage until a secondary voltage reaches a regulation value; wherein the power supply controller generates a secondary voltage from a generated primary voltage; and wherein the battery voltage detection means includes an up conversion stop means for stopping battery voltage detection and an up conversion operation until the secondary voltage reaches a regulation voltage.
4. A power supply controller comprising: an up conversion means for stepping up a primary voltage from a battery voltage; a secondary voltage generation means for generating a secondary voltage from a generated primary voltage; a Power On Reset signal generation means for supplying a Power On Reset signal to the secondary voltage generation means; a battery voltage detection means; and an up conversion stop means for stopping an up conversion operation until the Power On Reset signal is released.
5. The power supply controller according to claim 4 , wherein the battery voltage detection means includes an up conversion stop means for stopping battery voltage detection and an up conversion operation until a secondary voltage reaches a regulation voltage and a Power On Reset signal is released.
6. The power supply controller according to claim 4 , comprising: an up conversion stop means for keeping an up conversion function enabled in accordance with a Power On Reset signal after a secondary voltage reaches a regulation voltage, the up conversion function is enabled after release of the Power On Reset signal, and the secondary voltage becomes lower than the predetermined voltage.
7. The power supply controller according to claim 4 , comprising: a reference voltage generation means for generating a reference voltage from a battery voltage or a primary voltage whichever is higher; a voltage maintaining means for maintaining a predetermined voltage even when a battery voltage decreases; and an up conversion stop means for stopping an up conversion operation until a Power On Reset signal is released.
8. A power supply controller comprising: a down conversion means for stepping down a primary voltage from a battery voltage; an up conversion means for stepping up a primary voltage from a battery voltage; a secondary voltage generation means for generating a secondary voltage from a generated primary voltage; a Power On Reset signal generation means for providing a Power On Reset signal to the secondary voltage generation means; a battery voltage detection means; and an up conversion stop means for stopping an up conversion operation until the Power On Reset signal is released.
9. A power supply controller comprising: an up conversion means for stepping up a primary voltage from a battery voltage; a battery voltage detection means; and an up conversion stop means for allowing the up conversion means to stop stepping up a voltage until a secondary voltage reaches a regulation value, and for keeping an up conversion function enabled after the secondary voltage reaches a regulation voltage, an up conversion function is enabled, and the secondary voltage becomes lower than a predetermined voltage; wherein the power supply controller generates a secondary voltage from a generated primary voltage.
10. A power supply controller comprising: a battery voltage detection means; an up conversion means for stepping up a primary voltage from a battery voltage to a predetermined voltage even when the battery voltage decreases to the primary voltage or lower; and an up conversion stop means for allowing the up conversion means to stop stepping up a voltage until a secondary voltage reaches a regulation value; wherein the power supply controller generates the secondary voltage from a generated primary voltage.
11. A power supply controller comprising: an up conversion means for stepping up a primary voltage from a battery voltage; a battery voltage detection means; a reference voltage generation means for generating a reference voltage from a battery voltage or a primary voltage, whichever is higher; a voltage maintaining means for maintaining a predetermined voltage even when a battery voltage decreases; and an up conversion stop means for stopping an up conversion operation until secondary voltage reaches a regulation value and for allowing the up conversion means to stop stepping up a voltage until the secondary voltage reaches a regulation value; wherein the power supply controller generates the secondary voltage from a generated primary voltage.
12. A power supply controller comprising: an up conversion means for stepping up a primary voltage from a battery voltage; a battery voltage detection means; and an up conversion stop means for allowing the up conversion means to stop stepping up a voltage until a secondary voltage reaches a regulation value; wherein the power supply controller generates a secondary voltage from a generated primary voltage; wherein the up conversion means steps up a battery voltage when the battery voltage is smaller than or equal to a predetermined voltage; and wherein the up conversion means stops stepping up the battery voltage when the battery voltage recovers to a predetermined voltage or higher.
13. A power supply controller comprising: a down conversion means for stepping down a primary voltage from a battery voltage; an up conversion means for stepping up a primary voltage from a battery voltage; a battery voltage detection means; a changeover means that changes the down conversion means to the up conversion means for stepping up a battery voltage when the battery voltage is smaller than or equal to a predetermined voltage and that changes the up conversion means to the down conversion means for stepping down the battery voltage when the battery voltage recovers to a predetermined voltage or higher; and an up conversion stop means for allowing the up conversion means to stop stepping up a voltage until a secondary voltage reaches a regulation value; wherein the power supply controller generates a secondary voltage from a generated primary voltage.
14. A power supply controller comprising: an up conversion means for stepping up a primary voltage from a battery voltage; a battery voltage detection means; and an up conversion stop means for allowing the up conversion means to stop stepping up a voltage until a secondary voltage reaches a regulation value; wherein the power supply controller generates a secondary voltage from a generated primary voltage; and wherein the battery voltage detection means includes a hysteresis setup means for providing a hysteresis to a battery voltage detection value.
15. The power supply controller according to claim 14 , wherein the battery voltage detection means includes a hysteresis varying means that uses an external control signal to assign a variable hysteresis to the battery voltage detection value.
16. The power supply controller according to claim 15 , further comprising: a ripple detection means for detecting a ripple width of a battery voltage; and a hysteresis varying means for supplying a variable hysteresis used for battery voltage detection in accordance with the ripple width of the battery voltage.
17. A power supply controller comprising: an up conversion means for stepping up a primary voltage from a battery voltage; a battery voltage detection means; and an up conversion stop means for allowing the up conversion means to stop stepping up a voltage until a secondary voltage reaches a regulation value; wherein the power supply controller generates the secondary voltage from a generated primary voltage; and wherein the battery voltage detection means includes a protection means for providing a given guard time for detection when the battery voltage is greater than or equal to or smaller than or equal to a predetermined voltage.
18. The power supply controller according to claim 17 , wherein the protection means calculates a guard time from up conversion control information and makes the guard time variable when detecting a battery voltage greater than or equal to or smaller than or equal to a predetermined voltage.
19. A power supply controller comprising: an up conversion means for stepping up a primary voltage from a battery voltage; a battery voltage detection means for detecting a battery voltage; and an up conversion stop means for allowing the up conversion means to stop stepping up a voltage until a secondary voltage reaches a regulation value, and an up conversion stop means that provides a lower limit for a battery voltage capable of boost operation and stops an up conversion operation when detecting that a battery voltage is smaller than or equal to the lower limit; wherein the power supply controller generates a secondary voltage from a generated primary voltage.
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December 11, 2008
May 29, 2012
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